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When a List<> of primitive types is created in C# (e.g. a List<int>), are the elements inside the list stored by value, or are they stored by reference?

In other words, is C# List<int> equivalent to C++ std::vector<int> or to C++ std::vector<shared_ptr<int>>?

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@fontanini: How can I "try myself"?? –  user1149224 May 11 '12 at 17:49
3  
You would need to have a mutable value type to determine if/where copies were being made, and testing it would be non-trivial if you didn't already understand exactly how it worked, so no, trying it yourself wouldn't be all that easy. –  Servy May 11 '12 at 17:57
    
Create a list of ints. Create an int. Insert it into the list. Modify the original int. Print the value of the int that you stored in the list. If they're equal, then it's passed as reference, otherwise, by value. –  mfontanini May 11 '12 at 18:13
    
Although you mention C++ and provice C++ psudocode, this isn't a C++ question -- so I've removed that tag. –  John Dibling May 11 '12 at 18:59

3 Answers 3

up vote 6 down vote accepted

A List<int> will have an int[] internally. No boxing is required usually - the values are stored directly in the array. Of course if you choose to use the List<T> as a non-generic IList, where the API is defined in terms of object, that will box:

List<int> list1 = new List<int>();

// No boxing or unboxing here
list1.Add(5);
int x = list1[0];

// Perfectly valid - but best avoided
IList list2 = new List<int>();

// Boxed by the caller, then unboxed internally in the implementation
list2.Add(5);

// Boxed in the implementation, then unboxed by the caller
int y = (int) list2[0];

Note that the phrase "stored by reference" is a confusing one - the term "by reference" is usually used in the context of parameter passing where it's somewhat different.

So while a List<string> (for example) contains an array where each element value is a reference, in a List<int> each element value is simply an int. The only references involved are the callers reference to the List<int>, and the internal reference to the array. (Array types themselves are always reference types, even if the element type is a value type.)

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Excellent answer. Thanks. –  user1149224 May 11 '12 at 19:37

Value types are stored by value. (e.g. primitives and structs) Reference types are stored by reference. (e.g. classes)

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The phrase "by reference" isn't a useful one here, IMO. It's too reminiscent of "pass by reference" which is somewhat different. For reference types, the element values simply are references. –  Jon Skeet May 11 '12 at 17:53
    
All lists store values. For classes, the value happens to simply be a reference, but it's still stored by value. (In the same way that all parameters are passed by value unless explicitly using out/ref.) –  Servy May 11 '12 at 17:55
    
@JonSkeet, Servy: That's what I was intending to convey, but didn't know how to state in a less confusing way. Thanks for clarifying. –  recursive May 11 '12 at 17:57
1  
I'm not sure why the term 'reference' was chosen over pointer in C#, because that's what reference types are, and what passing by reference means (and passing a reference type by reference is a pointer-to-pointer, or double indirection). Its usually easier to talk about reference types and references when you just think in terms of pointers. –  David Anderson - DCOM May 11 '12 at 18:03
1  
@DavidAnderson: References might be implemented internally as pointers. They don't have to be. They're just ways of navigating to an object. See blog.juma.me.uk/2008/10/14/… for example - unfortunately the links don't work, but it's about a JVM mode where references are "compressed" to allow many references to be stored as 32-bit values even in a 64-bit address space. –  Jon Skeet May 11 '12 at 19:16

So what would happen if you wrote code like this:

struct MutableValueType
{
  public int ChangableInt32;
}

static class Program
{
  static void Main()
  {
     var li = new List<MutableValueType>();
     li.Add(new MutableValueType());
     li[0].ChangableInt32 = 42;
  }
}

Will you modify a copy of your struct, or will you change the copy that is inside the List<>? Will the compiler warn you? I would like to try this.

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